How birds lost their penises

By Kristen Butler,
How birds lost their penises
The developing penis (pseudocolored red) of a chick embryo before it regresses, viewed under a scanning electron microscope. (Credit: A.M. Herrera and M.J. Cohn, University of Florida)

The penises of about 10,000 species of birds stop growing and wither away, and researchers from the University of Florida have pinpointed why.

Considered "one of the most puzzling events in evolution," male land fowl have reduced or absent external genitalia as adults.


The researchers examined the embryonic development of birds with penises, including ducks, and birds without penises such as chickens.

It turns out that land fowl, which have only rudimentary penises as adults, have normally developing penises as early embryos. Later in development a gene called Bmp4 switches on, causing the bird's budding genitals to shrink away.

RELATED New 'time cloak' makes data invisible

In birds with phalluses, that gene remains switched off, allowing full development. In the case of ducks, full development sometimes means phalluses longer than the bird's body. Water fowl are believed to retain their penises to keep water from washing sperm away.

"Genitalia are one of the fastest-evolving organs in animals, from mollusks to mammals," said Martin Cohn of the Howard Hughes Medical Institute and University of Florida, Gainesville. "It is also the case that genitalia are affected by birth defects more than almost any other organ."

Despite losing their genitalia, the males still manage to fertilize female birds through internal insemination. Chickens, for example, perform a "cloacal kiss," in which the male and female must cooperate to rub their opposing cloacae together.

RELATED NASA: Mars rover Curiosity treks to Mount Sharp

It's not entirely clear why land fowl would lose their penises, said graduate student Ana Herrera, lead author of the study. She says it may be that the loss leaves hens with greater control over reproduction.

The new research, published today in the journal Current Biology, could "lead to discoveries of new mechanisms of embryonic development, some of which are totally unexpected," Cohn said. "This allows us to not only understand how evolution works but also gain new insights into possible causes of malformations."

RELATED Deep-sea garbage dump: ROVs reveal trash on ocean floor

RELATED Lizard King: Extinct lizard named after The Doors' Jim Morrison

RELATED Researchers control flying robot with only the mind

RELATED Beer fridge knocks out mobile network in Australia

Latest Headlines


Follow Us